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预测药物致 QT 间期延长在人体中的挑战。

The Challenges of Predicting Drug-Induced QTc Prolongation in Humans.

机构信息

Department of Investigative Toxicology, UCB Biopharma SRL, Braine-l'Alleud B-1420, Belgium.

Independent, Beaufort, South Carolina 29901, USA.

出版信息

Toxicol Sci. 2022 Apr 26;187(1):3-24. doi: 10.1093/toxsci/kfac013.

DOI:10.1093/toxsci/kfac013
PMID:35148401
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9041548/
Abstract

The content of this article derives from a Health and Environmental Sciences Institute (HESI) consortium with a focus to improve cardiac safety during drug development. A detailed literature review was conducted to evaluate the concordance between nonclinical repolarization assays and the clinical thorough QT (TQT) study. Food and Drug Administration and HESI developed a joint database of nonclinical and clinical data, and a retrospective analysis of 150 anonymized drug candidates was reviewed to compare the performance of 3 standard nonclinical assays with clinical TQT study findings as well as investigate mechanism(s) potentially responsible for apparent discrepancies identified. The nonclinical assays were functional (IKr) current block (Human ether-a-go-go related gene), action potential duration, and corrected QT interval in animals (in vivo corrected QT). Although these nonclinical assays demonstrated good specificity for predicting negative clinical QT prolongation, they had relatively poor sensitivity for predicting positive clinical QT prolongation. After review, 28 discordant TQT-positive drugs were identified. This article provides an overview of direct and indirect mechanisms responsible for QT prolongation and theoretical reasons for lack of concordance between clinical TQT studies and nonclinical assays. We examine 6 specific and discordant TQT-positive drugs as case examples. These were derived from the unique HESI/Food and Drug Administration database. We would like to emphasize some reasons for discordant data including, insufficient or inadequate nonclinical data, effects of the drug on other cardiac ion channels, and indirect and/or nonelectrophysiological effects of drugs, including altered heart rate. We also outline best practices that were developed based upon our evaluation.

摘要

本文内容源自一个健康与环境科学协会(HESI)联盟,该联盟的重点是提高药物开发过程中心脏安全性。进行了详细的文献回顾,以评估非临床复极试验与临床全面 QT(TQT)研究之间的一致性。美国食品和药物管理局和 HESI 开发了一个非临床和临床数据的联合数据库,并对 150 个匿名药物候选物进行了回顾性分析,以比较 3 种标准非临床检测与临床 TQT 研究结果的性能,并研究潜在导致明显差异的机制。非临床检测包括功能(IKr)电流阻断(人 Ether-a-go-go 相关基因)、动作电位持续时间和动物校正 QT 间期(体内校正 QT)。尽管这些非临床检测对预测临床 QT 延长的阴性结果具有良好的特异性,但对预测阳性临床 QT 延长的敏感性相对较差。经过审查,确定了 28 种不一致的 TQT 阳性药物。本文概述了导致 QT 延长的直接和间接机制,以及临床 TQT 研究与非临床检测之间缺乏一致性的理论原因。我们以 6 种特定且不一致的 TQT 阳性药物作为案例进行研究。这些药物来自独特的 HESI/美国食品和药物管理局数据库。我们想强调一些不一致数据的原因,包括非临床数据不足或不充分、药物对其他心脏离子通道的影响,以及药物的间接和/或非电生理作用,包括心率改变。我们还概述了基于我们评估制定的最佳实践。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1c3f/9041548/9a480f9d737e/kfac013f6.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1c3f/9041548/f591f22149ed/kfac013f1.jpg
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